Rotisserie turkey deep fryer

ABSTRACT

A deep fryer and related methods of frying a whole turkey in a reduced cooking oil volume. A frying basin can have a rounded profile avoiding dead spaces within the frying basin. The frying basin can include a recessed channel at a bottommost portion of the frying basin to accommodate a heating element, such that the heating element does not project above a floor of the frying basin. The deep fryer can have a rotisserie assembly for mounting and rotating the whole turkey such that only a lower half of the whole turkey is submerged within the cooking oil at any one time. The deep fryer can include a kick-stand feature that allows a user to lower and raise the rotisserie assembly including the whole turkey using only one hand such that a user need not lean over or otherwise put their hands or body above the frying basin.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a division of allowed U.S. application Ser. No. 15/923,578, filed Mar. 16, 2018, which claims the benefit of U.S. Provisional Application No. 62/473,001, filed Mar. 17, 2017, the entire disclosures of which are hereby incorporated herein in their entirety by reference.

TECHNICAL FIELD

The present invention is directed to countertop deep fryer appliances. More specifically, the present invention is directed to a rotisserie deep fryer that uses a reduced volume of cooking oil.

BACKGROUND

Residential deep fryer appliances are well known and are frequently used to prepare a variety of deep fried food. In addition to their frequent use in preparing side items such as french fries and onion rings, deep fryers are often used in preparing food such as fish and even turkeys. While a number of prior art devices are capable of deep frying whole turkeys, registration guidelines put forward by Underwriters Laboratories that limit the amount of cooking oil that can be used in a countertop deep fryer have made it more difficult to accommodate whole turkeys. As such, it would be advantageous to have a deep fryer that meets the cooking oil volume limitations for UL registration while still providing for effective and safe cooking of whole turkeys.

SUMMARY

The deep fryer of the present invention accomplishes these objectives by redesigning a frying basin so as to successfully deep fry a whole turkey while meeting UL® guidelines for maximum cooking oil volume. The frying basin can comprise a rounded profile so as to avoid dead spaces within the frying. The frying basin can further include an element channel at a bottommost portion of the frying basin to accommodate an immersion heating element. The deep fryer can further comprise a rotisserie assembly for mounting and rotating a whole turkey such that only a lower half of the whole turkey is submerged within the cooking oil at any one time. The rotisserie assembly can comprise a kick-stand feature that allows a user to lower and raise the whole turkey using only one hand such that a user need not lean over or otherwise put their hands or body above the frying basin when lowering or raising the whole turkey from the frying basin. In some embodiments, the rotisserie assembly can be removed from the frying basin such that the frying basin can be utilized as a conventional deep fryer using a basket for holding food items to be cooked.

The above summary is not intended to describe each illustrated embodiment or every implementation of the subject matter hereof. The figures and the detailed description that follow more particularly exemplify various embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

Subject matter hereof may be more completely understood in consideration of the following detailed description of various embodiments in connection with the accompanying figures, in which:

FIG. 1 is rear, perspective view of a deep fryer according to an embodiment of the present invention.

FIG. 2 is a front, perspective view of the deep fryer of FIG. 1.

FIG. 3 is a rear view of the deep fryer of FIG. 1

FIG. 4 is a front, view of the deep fryer of FIG. 1.

FIG. 5 is rear, perspective, section view of the deep fryer of FIG. 1 taken at line 5-5 of FIG. 3.

FIG. 6 is a front, perspective view of a frying basin according to an embodiment of the present invention.

FIG. 7 is a side view of the frying basin of FIG. 6.

FIG. 8 is a top view of the frying basin of FIG. 6.

FIG. 9a is a front, exploded, perspective view of the deep fryer of FIG. 1.

FIG. 9b is a rear, exploded, perspective view of the deep fryer of FIG. 1.

FIG. 10 is a front, perspective view of the deep fryer of FIG. 1.

FIG. 11 is a top view of a retention net according to an embodiment of the present invention.

FIG. 12 is a side view of the retention net of FIG. 11 retaining a whole turkey according to an embodiment of the present invention.

FIG. 13 is a rear, perspective view of the deep fryer of FIG. 1 with a frying basket according to an embodiment of the present invention.

FIG. 14 is a rear perspective view of the deep fryer of FIG. 13.

While various embodiments are amenable to various modifications and alternative forms, specifics thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not to limit the claimed inventions to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the subject matter as defined by the claims.

DETAILED DESCRIPTION OF THE DRAWINGS

Referring generally to FIGS. 1-5, a deep fryer 100 of the present invention can comprise an outer body 102, a base assembly 104 and a lid 106. Outer body 102 generally comprises a pair of side walls 108 a, 108 b, a front wall 110 and a rear wall 112. Each of the side walls 108 a, 108 b include a lifting handle 113. Lid 106 can comprise a lid handle 114 and one or more vent apertures 115. Front wall 110 can include a stand handle 116 include a rotatable support member 117. Rotatable support member 117 includes a pair of side arms 118 a, 118 b and a support arm 119 defining a pair of support notches 119 a, 119 b. Outer body 102 and lid 106 can be formed of conventional appliance materials including, for example, aluminum, stainless steel and/or painted mild steel.

With reference to FIGS. 5-8, deep fryer 100 further comprises a frying basin 120 that resides within the outer body 102. Frying basin 120 generally comprises a pair of basin side walls 122 a, 122 b, a basin front wall 124, a basin rear wall 126 and a basin floor 128. The basin side walls 122 a, 122 b, basin front wall 124 and basin rear wall 126 cooperatively define an upper basin lip 129 that surrounds a basin opening 130. As seen in FIGS. 6-8, each of the basin side walls 122 a, 122 b, basin front wall 124, basin rear wall 126 and basin floor 128 define an arcuate profile 132 that is intended to correlate to a whole turkey perimeter when viewed from an end of the whole turkey. Basin floor 128 further defines a recessed channel 134 having a channel depth 136, a channel width 137 and a channel length 138. In some representative embodiments, the basin floor 128 can be modified such that frying basin 120 can be placed onto a flat surface such as, for example, a counter so as to avoid tipping or rocking. For example, basin floor 128 can comprise feet, either formed directly into the basin floor 128 or by adding polymeric feet, for example, rubber or silicon feet. Alternatively, basin floor 128 may include one or more flat surfaces formed directly with the basin floor 128 or otherwise coupled to the basin floor 128, wherein the frying basin 120 could reside on the one or more flat surfaces.

As shown in FIGS. 1-3, 5, 9 a, 9 b and 10, deep fryer 100 further comprises a control assembly 150 that is fixedly mounted to the rear wall 112. Control assembly 150 generally comprises a drip proof housing 152 for enclosing the various electrical and control elements while also providing a mounting location for operator interface components and rotisserie elements as will be discussed below. Drip proof housing 152 generally comprises an upper housing surface 154, a lower housing surface 156, a pair of side housing surfaces 158 a, 158 b, a front housing surface 160 and a rear housing surface 162. Front housing surface 160 attaches to a spacer member 164 to couple the drip proof housing 152 to the outer body 102, thus providing a thermal break between the drip proof housing 152 and the outer body 102 to limit heat conduction form the outer body 102 to the drip proof housing 152. Upper housing surface 154 is generally defined by a pair of control surface 166 a, 166 b and a recessed central portion 166 c. Recessed central portion 166 c has a rounded upper profile 168 from the front housing surface 160 to the rear housing surface 162. Control surfaces 166 a, 166 b include control interfaces such as, for example, a power button 170 a heat control knob 172. Rear housing surface 162 can include a power receptacle 174 and one or more housing vents 176. Drip proof housing 152 encloses various electrical components including a motor 178, for example a bidirectional synchronous motor. Motor 178 includes a motor shaft 179 that extends out of the front housing surface 160 at a position just above the rear wall 112 Drip proof housing 152 further encloses the connection ends of a heating element 180, for example, a resistive heat element. Heating element 180 also extends out of the rear wall 112 above the rear wall 112. Heating element 180 has a shape selected to substantially resemble the arcuate profile 132 of the basin rear wall 126 and having an element end portion 182 that resides fully within the recessed channel 134. Heating element 180 has a diameter less than the channel depth 136 such that the heating element 180 does not extend above the level of the basin floor 128.

Deep fryer 100 can further comprise a rotisserie assembly 190 as shown in FIGS. 5, 9 a, 9 b and 10. Generally the rotisserie assembly 190 includes a front mounting assembly 192, a rear mounting assembly 194 and a spit assembly 196. Front mount assembly 192 includes a mount handle 198 having a handle body 200. Handle body 200 defines and upper ledge 202, a lower notch 204 and a manipulation portion 206. Extending from underneath the handle body 200 are a pair of mounting arms 208 a, 208 b. Each mounting arm 208 a, 208 b defines a leading edge 210 and a trailing edge 212. Leading edge 210 can include a tapered portion 214. A front mounting plate 215 can be mounted across the trailing edge 212 of the mounting arms 208 a, 208 b. At a bottom most point of the mounting arms 208 a, 208 b, a mounting notch 216 can defined between the leading edge 210, the trailing edge 212 and the front mounting plate 215.

Referring again to FIGS. 5, 9 a, 9 b and 10, rear mounting assembly 194 generally comprises a mount body 220 including an upper mount surface 222 and a lower mount surface 224. Lower mount surface 224 is partially defined by an arcuate mount portion 226. Arcuate mount portion 226 is formed so as to correspond to the rounded upper profile of the recessed central portion 166 c. Extending from the lower mount surface 224 is a drive guard 228 that partially encloses a drive assembly 230. Drive assembly 230 generally comprises a slidable drive shaft 232, a shaft sprocket 234, a drive chain 236, a spit sprocket 238 and a spit drive shaft 240. Slidable drive shaft 232 includes a shaft body 242 and a shaft coupler 244. Drive assembly 230 further comprises an engagement switch 246 that engages the shaft coupler 244 so as to slidably engage and disengage the shaft coupler 244 to/from the motor shaft 179.

Spit assembly 196 generally comprises a front spit plate 250, a rear spit plate 252 and a pair of spit arms 254 a, 254 b as shown in FIGS. 5, 9 a, 9 b and 10. Front spit plate 250 can include a pair of spit receiving cavities 251 a, 251 b. Spit arms 254 a, 254 b are preferably fabricated from a single piece of material, for example stainless or aluminum rod, and are removably coupled to front spit plate 250 such that a whole turkey can be slidably retained on the spit arms 254 a, 254 b before attaching the spit arms 254 a, 254 b to the front spit plate 250. Spit arms 254 a, 254 b can each include a spit tip 255 that can include a point to ease insertion of the spit arms 254 a, 254 b through the whole turkey. Rear spit plate 252 includes a pair of retention tabs 256 a, 256 b and a pair of mounting clips 258 a, 258 b. A retention clip 260 locks the spit arms 254 a, 254 b to the rear spit plate 252. Front spit plate 250 is rotatably coupled to the front mounting plate 215 with a fastener 262 while the rear spit plate 252 is rotatably coupled to the spit drive shaft 240. As such, the spit assembly 192 is able to rotate along an axis defined between the fastener 262 and the spit drive shaft 240.

In using the deep fryer 100 of the present invention, a user first assembles the deep fryer 100 by positioning the base assembly 104 on a flat surface such as, for example, a table or countertop. If the frying basin 120 has previously been removed from the outer body 102, the user then orients the frying basin 120 such that the basin front wall 124 is proximate the front wall 1120 and the basin rear wall 126 is proximate the rear wall 122 and then sets the frying basin 120 into the body opening 110 until the upper basin lip 124 resides on the upper body surface 109. Next, a user positions the control assembly 150 above the outer body 102 such that the drip proof housing is above the rear wall 112 and the heating element is positioned above the basin opening 130. The user lowers the control assembly 150 such that the drip proof housing engages the exterior of the rear wall 112 while the element end portion 182 sets into the recessed channel 134. When properly positioned, the element end portion 182 will not extend or otherwise project above the basin floor 128 while a vertical portion of the heating element 180 resides along the basin rear wall 126 and is arranged to substantially match the arcuate profile 132 of the basin rear wall 126.

With the control assembly 150 attached to the outer body 102, the user can then add the cooking oil, for example, peanut oil into the frying basin 120 by pouring it into the basin opening 130. Due to the design of the frying basin 120, and more specifically due to the arcuate profile

132 of the basin side walls 122 a, 122 b, basin front wall 124, basin rear wall 126 and basin floor 128 as well as the positioning of the heating element 180 within the recessed channel 134, a reduced amount of cooking oil not exceeding five liters of cooking oil is all that is required to properly cook a whole turkey. With the cooking oil within the frying basin 120, the user plugs in the control assembly 150 to an electrical receptacle using a suitable cord and the power receptacle 174. With the control assembly 150 connected to power, the user can turn on the power button 170 and adjust the heat control knob 172 to begin heating the cooking oil with the heating element 180 to the desired frying temperature, for example, 375° F.

As the cooking oil is heating with the frying basin 120, the user can mount the whole turkey to the spit assembly 192. Generally, the user detaches the spit arms 254 a, 254 b from the front spit plate 250 and then directs the spit tip 255 of each of the spit arms 254 a, 254 b through the whole turkey from the front to the rear of the whole turkey. The user then reattaches the spit arms 254 a, 254 b to the front spit plate 250 by directing the spit tips 255 of each spin arm 254 a, 254 b into the corresponding spit receiving cavity 251 a, 251 b such that the whole turkey resides on the spit arms 254 a, 254 b with the rear spit plate 252 and the front spit plate 250 located proximate the rear and front ends of the whole turkey.

With the whole turkey mounted to the spit assembly 192, the user positions the spit assembly 192 such that the rear mounting assembly, and more specifically, the mount body 220 is positioned above the drip proof housing 152 with the whole turkey over the basin opening 130 as is shown generally in FIGS. 9a and 9b . The user lowers the mount body 220 such that the arcuate mount portion 226 of the lower mount surface 224 engages the recessed central portion 166 c of the upper housing surface 154 with the whole turkey still positioned above the basin opening 130 as shown in FIG. 10. Next the user rotates the rotatable support member 117 to a supporting orientation 270 as shown in FIG. 10. With the arcuate mount portion 226 supported by and rotating on the recessed central portion 166 c, the user lowers the front mounting assembly 192 such that the mounting notches 216 engage the support notches 119 a, 119 b of the rotatable support member and the front mounting assembly 192, including the whole turkey is supported above the basin opening 130 and out of the cooking oil. At this point, no user input is needed to continue maintaining the whole turkey directly above the cooking oil.

When the cooking oil reaches the desired cooking temperature, the user using only a single hand can lift on the mount handle 198 to disengage the mounting arms 208 a, 208 b from the rotatable support member 117, which can then be rotated to a lowered orientation 272 as seen in FIGS. 2, 6 and 9. As the user can now manipulate the rotisserie assembly 190 using only a single hand, the user is not required to stand over or reach over the basin opening 130. The user can then begin lowering the front mounting assembly 192 into the basin opening 130 such that the tapered portion 214 of the mounting arms 208 a, 208 b begin guiding the front mounting assembly 192 into the basin opening 130. As the user lowers the front mounting assembly 192, the lower notch 204 eventually comes into contact with the upper basin lip 129 along the front wall 124. At this point, the whole turkey will be positioned such that approximately half of the whole turkey resides within the heated cooking oil and approximately half of the whole turkey resides above the heated cooking oil. The portion of the whole turkey within the heated cooking oil will be experiencing vigorous frying. As the lowering of the whole turkey is accomplished with only a single hand and the user is never exposed to or positioned above the basin opening 130, the user will not be exposed to any oil spatter or foaming that may be occur due to moisture on the whole turkey or due to the addition of too much cooking oil or too large a whole turkey so as to provide a safer and less intimidating frying experience for the user.

With the whole turkey partially submerged in the heated cooking oil, the user next engages the rotisserie feature of the deep fryer 100. The user slidably advances the engagement switch 246 toward the rear wall 112 such that the shaft coupler 244 slidably engages the motor shaft 179. The user then turns on the motor 178 with the motor button 177 whereby rotation of the motor shaft 179 is translated to the slidable drive shaft 232. The slidable drive shaft 232 turns the shaft sprocket 234, which results in the drive chain 236 turning the spit sprocket 238, whereby the spit assembly 192 including the whole turkey is caused to rotate around the axis defined by the spit drive shaft 240 and the fastener 262. In this way, essentially every part of the whole turkey is submerged within the heated cooking oil during one half of a rotation of the spit drive shaft 240. When motor 178 comprises a bidirectional synchronous motor, any obstruction or interference that would stop the rotation of the whole turkey, merely result in the motor 178 beginning to rotate in an opposite direction in an attempt to overcome and eliminate the issue.

During cooking, the whole turkey is preferably rotated through the heated cooking oil at a rate of 1-2 rpm. In the case of a 15-pound turkey with the cooking oil at 375° F., the whole turkey can be completely cooking in approximately 60 minutes. Following cooking, the user turns off the motor button 177 and power button 170 to stop the rotisserie action. Next, the user slidably retracts the engagement switch 246 to disengage the shaft coupler 244 and the motor shaft 179. Using the mount handle 198, the user then begins lifting the front mounting assembly 192 out of the basin opening 130. The user then rotates the rotatable support member 117 to the supporting orientation 270 and lowers the mount handle 198 such that the mounting notches 216 engage the support notches 119 a, 119 b and the whole turkey is supported above the basin opening 130 and any cooking oil on the whole turkey is allowed to drip back into the frying basin 120. Once the whole turkey has rested and the cooking oil has dripped back into the frying basin 120, the user can lift the rotisserie assembly 190 off of the drip proof housing 152 and the upper basin lip 129, whereby the whole turkey can be carried to a cutting location. The user then detaches the spit arms 254 a, 254 b from the front spit plate 250 and the spit arms 254 a, 254 b can be withdrawn from the whole turkey.

As discussed previously, motor 178 can comprise a bidirectional synchronous motor that will stop and rotate in an opposite direction in the event of the whole turkey encountering an obstruction or interference that would impact the rotation of the whole turkey. The positioning of the heating element 180 such that the element end portion 182 resides fully within the recessed channel 134 in one way to prevent such an obstruction. As the element end portion 182 has no portion above the basin floor 128, the potential for any part of the whole turkey contacting and being obstructed by the element end portion 182 is substantially reduced. In some embodiments, a retention net 300 as shown in FIG. 11 can be utilized to constrain the whole turkey, for example the wings or drumsticks, to prevent the whole turkey from spreading and coming into contact with the frying basin 120. As illustrated, retention net 300 can be formed of polymers that can tolerate high frying temperatures and are suitable for food contact such as, for example, silicone. Retention net 300 generally comprises a plurality of horizontal elements 302 and vertical elements 304 that cooperatively define a net length 306 and a net width 308. The horizontal elements 302 and vertical elements 304 define a plurality of openings 310. The net length 308 is defined between a first end 312 and a second end 314, wherein the second end 314 includes a plurality of retention elements 316. Each retention elements 316 generally includes one or more hook portions 318. As seen in FIG. 12, the retention net 300 can be wrapped about a whole turkey 330 to retain wings 332 and drumsticks 334 in close proximity to a turkey body 336. Either prior to or after mounting the whole turkey 330 on the spit arms 254 a, 254 b, first end 312 can be wrapped about the whole turkey and brought into proximity with the second end 314 such that the hook portions can be positioned within and capture suitable openings 310 to tightly wrap the retention net around the whole turkey 330. The presence of openings 310 along the whole net length 306 allow the retention net 300 to be used with a variety of sizes of whole turkeys 330, or even smaller chickens.

As discussed previously, the arcuate profile 132 of the basin side walls 122 a, 122 b, basin front wall 124, basin rear wall 126 and basin floor 128 are intended to closely mimic the perimeter of a whole turkey. As such, the arcuate profile 132 of the frying basin 120 essentially eliminates corners and other dead spots that would otherwise be filled with cooking oil but not provide an area into which the whole turkey would be rotated. Similarly, the positioning of the element end portion 182 within the recessed channel 134 allows the whole turkey to rotate very closely to the arcuate profile 132 of the basin floor 128, which would not be possible if the element end portion 182 resided above the basin floor 128. By designing the frying basin 120 with the arcuate profile 132 so as to substantially reduce dead space, the amount of cooking oil required to cover approximately half of the whole turkey is substantially reduced and does not exceed 5 liters.

Finally, the removable nature of the rotisserie assembly 190 allows the deep fryer 100 to be used as a conventional non-rotisserie fryer as well. With the rotisserie assembly 190 removed, a conventional frying basket 340 can be set into the frying basin 120 for cooking items such as french fries, onion rings and the like. As such, the user need not have separate deep fryers and can use the cooking oil for both rotisserie and non-rotisserie frying. In addition, the removable nature of the major components of the deep fryer 100 include the outer body 102, base assembly 104, lid 106, frying basin 120, control assembly 150 and rotisserie assembly 190 provide for easier cleaning and disposal of used cooking oil following cooling of the cooking oil. In embodiments where the basin floor 128 includes feet and/or flat surfaces, the frying basin 120 can be removed from the outer body 102 and the frying basin 120 can placed on a counter or other flat surface to allow the cooking oil to cool, to assist in cleaning or to assist in cooking oil removal and disposal.

Various embodiments of systems, devices, and methods have been described herein. These embodiments are given only by way of example and are not intended to limit the scope of the claimed inventions. It should be appreciated, moreover, that the various features of the embodiments that have been described may be combined in various ways to produce numerous additional embodiments. Moreover, while various materials, dimensions, shapes, configurations and locations, etc. have been described for use with disclosed embodiments, others besides those disclosed may be utilized without exceeding the scope of the claimed inventions.

Persons of ordinary skill in the relevant arts will recognize that the subject matter hereof may comprise fewer features than illustrated in any individual embodiment described above. The embodiments described herein are not meant to be an exhaustive presentation of the ways in which the various features of the subject matter hereof may be combined. Accordingly, the embodiments are not mutually exclusive combinations of features; rather, the various embodiments can comprise a combination of different individual features selected from different individual embodiments, as understood by persons of ordinary skill in the art. Moreover, elements described with respect to one embodiment can be implemented in other embodiments even when not described in such embodiments unless otherwise noted.

Although a dependent claim may refer in the claims to a specific combination with one or more other claims, other embodiments can also include a combination of the dependent claim with the subject matter of each other dependent claim or a combination of one or more features with other dependent or independent claims. Such combinations are proposed herein unless it is stated that a specific combination is not intended.

Any incorporation by reference of documents above is limited such that no subject matter is incorporated that is contrary to the explicit disclosure herein. Any incorporation by reference of documents above is further limited such that no claims included in the documents are incorporated by reference herein. Any incorporation by reference of documents above is yet further limited such that any definitions provided in the documents are not incorporated by reference herein unless expressly included herein.

For purposes of interpreting the claims, it is expressly intended that the provisions of 35 U.S.C. § 112(f) are not to be invoked unless the specific terms “means for” or “step for” are recited in a claim. 

1. A method of deep frying, comprising: attaching a food item to a removable spit assembly, the removable spit assembly including a front mounting assembly, at least one spit member and a rear mounting assembly; positioning the rear mounting assembly to reside on a fryer body whereby the front mounting assembly is elevated above the fryer body; and lowering the front mounting assembly while the rear mounting assembly remains on the fryer body such that at least a portion of the food item is lowered into cooking oil contained within the fryer body.
 2. The method of deep frying of claim 1, wherein the step of positing the rear mounting assembly further comprises: positioning an arcuate lower surface of the rear mounting assembly onto a rounded upper profile surface of the fryer body.
 3. The method of claim 2, wherein the round upper profile surface is defined on a control assembly attached to a rear wall of the fryer body.
 4. The method of claim 1, further comprising: engaging one or more front mounting arms of the front mounting assembly with a front support member of the fryer body to retain the front mounting assembly above the fryer body while the rear mounting assembly remains on the fryer body.
 5. The method of claim 1, further comprising: coupling the rear mounting assembly to a motor on the fryer body after the front mounting assembly has been lowered.
 6. The method of claim 5, further comprising: coupling a motor shaft of the motor with a drive assembly on the rear mounting assembly, said drive assembly in operable communication with the at least one spit member.
 7. The method of claim 6, wherein the drive assembly includes a shaft coupler and wherein the step of coupling the motor shaft to the drive assembly further comprises: slidably directing a shaft coupler on the drive assembly into engagement with the motor shaft.
 8. The method of claim 7, wherein the shaft coupler is coupled to a manual engagement switch on the rear mounting assembly and wherein the step of slidably directing the shaft coupler into engagement with the motor shaft further comprises: slidably manipulating the manual engagement switch such that the shaft coupler engages the motor shaft.
 9. The method of claim 1, further comprising: lifting the front mounting assembly while the rear mounting assembly remains on the fryer body such that the food item is supported above the cooking oil.
 10. The method of claim 1, further comprising: supporting the food item above the fryer body such that any cooking oil on the food item is allowed to drip into the fryer body.
 11. A skewer assembly comprising: a first spit plate rotatably attached to a first mounding plate; a second spit plate rotatably attached to a second mounting plate; a spit assembly comprising a plurality of spit arms, the spit assembly being removably attached to the first spit plate; a drive assembly adapted to drive the first spit plate using rotational movement provided by a shaft in communication with the drive assembly; and the second spit plate comprising a plurality of spit receiving cavities, each spit receiving cavity adapted to receive an end of one of the plurality of spit arms.
 12. The skewer assembly of claim 11, wherein: the first spit plate comprises a plurality of retention tabs and at least one mounting clip; and wherein the removable attachment of the spit assembly to the first spit plate is performed by the plurality of retention tabs, each spit arm passing through a corresponding retention tab, and the at least one mounting clip engaging the spit assembly.
 13. The skewer assembly of claim 11, wherein: an end of least one of the spit arms comprises a spit tip, the spite tip comprising a latching groove which engages a latch located at the second spit plate.
 14. The skewer assembly of claim 13, wherein the latch is a spring configured to enter the latching groove as the result of spring tension.
 15. The skewer assembly of claim 13, wherein: the spit tip further comprises a stop protrusion adapted to limit a depth into which the spit tip enters the spit receiving cavity.
 16. The skewer assembly of claim 11, wherein: the drive assembly comprises: a first sprocket attached to the first spit plate; a second sprocket attached to the shaft; and a chain in communication with both the first sprocket and the second sprocket such that the first sprocket rotates as the result of a rotation of the second sprocket.
 17. The skewer assembly of claim 11, wherein: the shaft comprises a shaft coupler located at an end of the shaft; the shaft is slidably attached to the second sprocket such that the shaft coupler can be moved axially relative to the second sprocket as the result of a sliding motion of the shaft.
 18. A rotisserie drive mechanism comprising: a drive motor having a drive shaft configured with a radially mounted drive pin; a first drive sprocket; a second drive sprocket; a drive chain; a slidable shaft configured with a drive coupler located at an end of the slidable shaft; the slidable shaft slidably attached to the first drive sprocket such that the slidable shaft may be located at a first position wherein the drive coupler is engaged with the drive pin and a second position wherein the drive coupler is not engaged with the drive pin; the drive mechanism configured such that when the drive coupler is engaged with the drive pin, a rotating movement of the drive shaft causes a corresponding rotating movement of the slidable shaft and the first drive sprocket; and the first drive sprocket engages the drive chain such that the second drive sprocket rotates.
 19. The rotisserie drive mechanism of claim 18, further comprising: a mounting arm to which the first drive sprocket and the second drive sprocket are rotatably affixed, the mounting arm axially rotatable relative to an axis of the drive shaft such that when in a first rotational position, an axis of rotatable shaft is aligned with an axis of the drive shaft and in a second rotation position, the axis of the rotatable shaft is not aligned with the axis of the drive shaft. 